| scholarly article | Q13442814 |
| P50 | author | Martin Eimer | Q1790491 |
| P2093 | author name string | Elena Gherri | |
| José Van Velzen | |||
| P2860 | cites work | The Organization of the Frontal Motor Cortex | Q28200645 |
| Non-spatial, motor-specific activation in posterior parietal cortex | Q28218436 | ||
| Intention-related activity in the posterior parietal cortex: a review | Q33902526 | ||
| Parietofrontal circuits for action and space perception in the macaque monkey. | Q34261563 | ||
| Organization of visual inputs to the inferior temporal and posterior parietal cortex in macaques | Q34571911 | ||
| Intentional maps in posterior parietal cortex | Q34674843 | ||
| Covert manual response preparation triggers attentional shifts: ERP evidence for the premotor theory of attention | Q36478307 | ||
| Lateralised cortical activity due to preparation of saccades and finger movements: a comparative study | Q40905687 | ||
| Spatial representations for action in parietal cortex | Q41362480 | ||
| Reorienting attention across the horizontal and vertical meridians: evidence in favor of a premotor theory of attention | Q41456100 | ||
| Effects of left parietal injury on covert orienting of attention | Q42089429 | ||
| Electroencephalographic activity associated with shifts of visuospatial attention | Q48112719 | ||
| FMRI evidence for a 'parietal reach region' in the human brain | Q48208000 | ||
| Spatial cueing, sensory gating and selective response preparation: an ERP study on visuo-spatial orienting | Q48230011 | ||
| EEG dynamics of the frontoparietal network during reaching preparation in humans. | Q48323725 | ||
| Motor programming of response force and movement direction | Q48333849 | ||
| Neural activity in primary motor and dorsal premotor cortex in reaching tasks with the contralateral versus ipsilateral arm. | Q48392998 | ||
| EEG dipole analysis of motor-priming foreperiod activity reveals separate sources for motor and spatial attention components | Q48408454 | ||
| Shifts of attention in light and in darkness: an ERP study of supramodal attentional control and crossmodal links in spatial attention. | Q48409934 | ||
| Effects of pointing direction and direction predictability on event-related lateralizations of the EEG. | Q48468118 | ||
| Distinguishing neural sources of movement preparation and execution. An electrophysiological analysis | Q48482401 | ||
| Ventral intraparietal area of the macaque: congruent visual and somatic response properties | Q48531264 | ||
| Shifts of attention in the early blind: an erp study of attentional control processes in the absence of visual spatial information. | Q48546833 | ||
| Advance movement preparation of eye, foot, and hand: a comparative study using movement-related brain potentials. | Q48577557 | ||
| An ERP study of preparatory and inhibitory mechanisms in a cued saccade task | Q48593898 | ||
| Cross-modal interactions between audition, touch, and vision in endogenous spatial attention: ERP evidence on preparatory states and sensory modulations. | Q48624262 | ||
| Manual response preparation and saccade programming are linked to attention shifts: ERP evidence for covert attentional orienting and spatially specific modulations of visual processing. | Q48667059 | ||
| Spatiotemporal overlap between brain activation related to saccade preparation and attentional orienting | Q48679291 | ||
| Neural correlates of advance movement preparation: a dipole source analysis approach | Q48765396 | ||
| Complementary localization and lateralization of orienting and motor attention | Q48871829 | ||
| Event-related brain potentials as indices of information extraction and response priming | Q49016346 | ||
| The dynamics of shifting visuospatial attention revealed by event-related potentials. | Q50757612 | ||
| Prior information of stimulus location: effects on ERP measures of visual selection and response selection. | Q52029030 | ||
| Probability effects on stimulus evaluation and response processes | Q52045846 | ||
| Effects of hand posture on preparatory control processes and sensory modulations in tactile-spatial attention. | Q52091697 | ||
| Beneficial effects of ambiguous precues: parallel motor preparation or reduced premotoric processing time? | Q52091779 | ||
| Anterior and posterior attentional control systems use different spatial reference frames: ERP evidence from covert tactile-spatial orienting. | Q52093003 | ||
| Influences of presentation mode and time pressure on the utilisation of advance information in response preparation. | Q52125879 | ||
| Integration of target and body-part information in the premotor cortex when planning action. | Q52144143 | ||
| Dimensional overlap between arrows as cueing stimuli and responses?. Evidence from contra-ipsilateral differences in EEG potentials. | Q52165413 | ||
| Shifting visual attention in space: an electrophysiological analysis using high spatial resolution mapping. | Q52167112 | ||
| An 'automatic pilot' for the hand in human posterior parietal cortex: toward reinterpreting optic ataxia. | Q52167477 | ||
| Partial advance information and response preparation: inferences from the lateralized readiness potential. | Q52200166 | ||
| Stimulus-response compatibility and automatic response activation: Evidence from psychophysiological studies | Q52206886 | ||
| Selective reaching: evidence for action-centered attention | Q52229463 | ||
| Use of partial stimulus information in response processing. | Q52249788 | ||
| On the advance preparation of discrete finger responses | Q52273454 | ||
| Discrete versus continuous stage models of human information processing: in search of partial output. | Q52288720 | ||
| Are movements prepared in parts? Not under compatible (naturalized) conditions. | Q52296528 | ||
| Human movement initiation: specification of arm, direction, and extent. | Q52296529 | ||
| The Attentional Role of the Left Parietal Cortex: The Distinct Lateralization and Localization of Motor Attention in the Human Brain | Q63407887 | ||
| The mechanisms of movement preparation: a precuing study | Q73461543 | ||
| Lateralized EEG components with direction information for the preparation of saccades versus finger movements | Q73896335 | ||
| Simultaneous encoding of multiple potential reach directions in dorsal premotor cortex | Q77590720 | ||
| Set- and Element-Level Stimulus-Response Compatibility Effects for Different Manual Response Sets | Q78579262 | ||
| Dissociating visual attention and effector selection in spatial precuing tasks | Q81108881 | ||
| Frontoparietal control of spatial attention and motor intention in human EEG | Q81470541 | ||
| Covert manual response preparation triggers attentional modulations of visual but not auditory processing | Q82727290 | ||
| Neural processes involved in directing attention | Q87295842 | ||
| P433 | issue | 9 | |
| P304 | page(s) | 2031-2049 | |
| P577 | publication date | 2007-07-23 | |
| P1433 | published in | Clinical Neurophysiology | Q15763516 |
| P1476 | title | Dissociating effector and movement direction selection during the preparation of manual reaching movements: evidence from lateralized ERP components | |
| P478 | volume | 118 |
| Q48402026 | Action preparation helps and hinders perception of action |
| Q46843517 | Assessment of the haptic robot as a new tool for the study of the neural control of reaching |
| Q49078479 | Attention allocation and task representation during joint action planning |
| Q42962007 | Both hand position and movement direction modulate visual attention |
| Q33790032 | Manual response preparation disrupts spatial attention: an electrophysiological investigation of links between action and attention. |
| Q47447480 | Neural correlates of tactile perception during pre-, peri-, and post-movement |
| Q46301345 | Pre-existing brain states predict aesthetic judgments |
| Q48493626 | Simultaneous preparation of multiple potential movements: opposing effects of spatial proximity mediated by premotor and parietal cortex. |
| Q33851606 | Stay tuned: what is special about not shifting attention? |
| Q35550482 | The color red attracts attention in an emotional context. An ERP study |
| Q37429968 | The instructed context of a motor task modulates covert response preparation and shifts of spatial attention. |
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